DE102013110814B4 - Device for tracking the quality of a moving linear textile material, particularly a yarn - Google Patents

Abstract

Device for tracking the quality of a moving linear textile material, especially a yarn (7), which has a socket (8), inside of which at least one image sensor (1) is mounted, to which at least one radiation source (3) can be or is assigned , characterized in that the image sensor (1) is a line image sensor and in the inner space of the socket (8), in the vicinity of the image sensor (1), at least one heating element (6) is attached.

Description

Field of technology

The invention relates to the device for tracking a moving linear textile material, in particular a yarn, which has a socket in which at least one image sensor is mounted, to which at least one radiation source can be or is assigned.

State of the art

Well-known institutions, for example loud CZ 299684 B6 , EP1319926 A1 or CZ PV 2009634 A3, for tracking the quality of a moving linear textile material, in particular a yarn on the textile machines, have a number of electronic components that generate heat loss when they are working. These components are usually mounted in a closed socket that at least partially isolates them from the environment. As a result, the temperature changes unevenly in different parts of this socket during their activities and especially during commissioning. The properties of the individual components of these devices are also partly dependent on the temperature, which of course can influence the value of the output signal of the device and thereby also the reliability and reproducibility of its function.

The components of the device for tracking the quality of the linear textile material, the properties of which change in relation to temperature, are mounted in the socket of the device in mutually different and relatively distant places due to the required structural arrangement, and therefore they are primarily in time the beginning of the activity of the respective facility heated unevenly. This can cause instability in its sensitivity for a certain time after the start-up, and thereby also cause certain changes in the output signal of the device which do not exactly correspond to the input signal, that is to say to the image of the running linear textile material. Above all, this has a negative effect on the calibration of the device, which is usually carried out during its manufacture and further on at the start of operation. For this reason, in order to achieve the peak parameters, it is necessary to control the temperature of the respective device for a certain period of time so that the most stable working conditions possible are achieved from the point of view of the temperature of their individual components.

Certain shortcomings of the known devices for tracking the quality of the running linear textile material are therefore caused by a compromise between the quality of the results of the tracking and the time lost, which is the time taken to warm up all components to their working temperature.

From the DE 10 2007 040 224 A1 a method for operating a device and a device for optical detection of the quality of a yarn with a light source and a sensor for measuring the light transmitted or reflected by the yarn are known. The light intensity measured by the sensor is corrected as a function of a measured temperature. The temperature is determined by means of a temperature sensor.

The aim of the invention is to shorten the time necessary to reach the operating temperature of the device or at least some of its components, to enable operational monitoring of the quality of the running linear textile material and to achieve reliable results of the monitoring without wasted time, which is forced by a long time that is necessary to reach the working temperature of the device, or without uncertainty as to whether the respective working temperature has been reached.

Explain the essence of the invention

The object of the invention is achieved by the device for tracking the quality of a moving linear textile material, especially a yarn, the essence of which is that at least one heating element is placed in the inner space of the bushing. At least one temperature sensor is preferably attached in the inner space of the socket.

This provides an active control of the process of heating the individual components to track the yarn quality by tracking the current temperature of the critical components, especially by actively generating the heat to accelerate the heating of these components to the working temperature. Furthermore, an active compensation of the light power for irradiating the yarn to be scanned and an active compensation of the signal from the measuring element as a function of the current temperature of the sensor are achieved.

To accelerate the temperature sensor and / or to accelerate the heating, it is advantageous if the temperature sensor and / or the heating element is in contact with an image sensor.

A further improvement is achieved by integrating the temperature sensor and / or the heating element on a semiconductor chip of the image sensor.

The heating element is advantageously formed by a semiconductor structure, specifically also a parasitic structure of an optical chip.

Figure list

• 1 Einschaltung der einzelnen Elemente der Einrichtung mit einem Bildsensor,
• 2 Anordnung der Einrichtung mit einem Bildsensor in der Buchse im Schnitt, der zur Bahn des sich bewegenden linearen Textilmaterials senkrecht läuft und
• 3 Anordnung der Einrichtung mit einem optischen Zeilensensor und mit zwei optischen Sensoren, die das widerstrahlte Licht abtasten, in der Buchse im Schnitt, der zur Bahn des sich bewegenden linearen Textilmaterials senkrecht läuft.

An embodiment of the device according to the invention for tracking the quality of a moving linear textile material is shown schematically on the accompanying drawings, where it shows:

• 1 Activation of the individual elements of the facility with an image sensor,
• 2 Arrangement of the device with an image sensor in the socket in section, which runs perpendicular to the path of the moving linear textile material and
• 3 Arrangement of the device with an optical line sensor and with two optical sensors which scan the reflected light, in the socket in the section which is perpendicular to the path of the moving linear textile material.

Embodiments of the invention

Loud in the exemplary embodiment 1 the device according to the invention for tracking the quality of a moving linear textile material comprises an image sensor 1 on, in the embodiment shown, a line image sensor, opposite a radiation source 3 , for example a light source is arranged. Between the radiation source 3 and the image sensor 1 is a lens 2 or another optical member is attached which serves to align the rays emanating from the radiation source 3 go out into a bundle of rays running parallel to each other. Between the lens 2 and the image sensor 1 is a space for the linear textile material to pass through 7th formed, which is a yarn in the illustrated embodiment. The image sensor 1 is via a bidirectional bus 51 with a microprocessor 5 or known electronic circuits for its control and processing and / or the evaluation of the signal from the image sensor 1 connected. The radiation source 3 is with the exit 52 of the microprocessor 5 coupled to control the radiation.

Near the image sensor 1 or directly on the body of the image sensor 1 are a temperature sensor 4th and a heating element 6th stored. The output of the temperature sensor 4th is with the entrance 53 of the microprocessor 5 to keep track of the temperature coupled and the heating element 6th is with the exit 54 of the microprocessor 5 coupled to temperature control.

All components of the exemplary embodiment according to the invention described or at least some of them can be integrated into an integrated semiconductor customer circuit ASIC.

When the device according to the invention is put into operation, the microprocessor 5 the heating element 6th in operation that the image sensor 1 starts to heat up to an operating temperature. The temperature sensor starts at the same time or subsequently 4th the temperature of the image sensor 1 track and via the entrance 53 the information about their value in the microprocessor 5 to deliver to. At the same time, the measured temperature of the sensor is the current through the light-emitting LED diode 3 , by means of the output 52 of the microprocessor, adjusted in such a way that the influence of the current temperature on the output signal of the image sensor 1 is compensated. After reaching the working temperature of the image sensor 1 the microprocessor terminates 5 the activity of the heating element 6th , being the activity of the sensor 4th to track the temperature of the image sensor 1 also continues during the operation of the facility, noting any sudden changes in the temperature of the image sensor 1 tracked, the current through the light-emitting LED diode is continuously compensated and the heating element 6th is put into operation for a certain period of time when the ambient temperature drops sharply.

In the embodiment not shown, the respective device does not have a temperature sensor, but only a heating element. In this embodiment, the time in which the image sensor 1 after the installation of the device and the start of the activity of the heating element 6th reaches its working temperature, and the microprocessor 5 after this time the activity of the heating element 6th completed.

In another embodiment, not shown, the device has only one temperature sensor 4th and no heating element 6th on. In this embodiment, the current through the LED diode is continuously corrected on the basis of the measured temperature in such a way that the parameters of the sensor, which are temperature-dependent, are compensated.

Loud in the exemplary embodiment 2 is the in 1 device shown in the socket 8th stored. The activation of the individual elements of the device is the same as in the embodiment described above. Out 2 are the placement of the temperature sensor 4th and the heating element 6th near the back of the image sensor 1 and formation of the column 81 for the passage of the linear fiber structure 7th in the socket 8th evident. In this version, too, the temperature sensor 4th and / or the heating element 6th in contact with the body of the image sensor 1 be attached. The socket 8th is in the space of the column 81 in the places of placement of the radiation source 3 and the image sensor 1 transparent.

In 3 is the device for tracking the cross-section and the color homogeneity of the yarn or another linear textile structure 7th noisy CZ 2009 634 A3 shown in the socket 8th is arranged. In the socket 8th is a column for the passage of the linear textile structure 7th formed in which a tracking space of the moving linear textile material 7th is formed. Around the chase room are in the jack 8th the light radiation source 3 and the image sensor 1 mounted opposite, which is the same as in the execution 1 and 2 via a bidirectional bus 51 with the microprocessor 5 is coupled. In relation to the radiation source 3 on the same side of the chase room are in the socket 8th two optical sensors 11 stored, the radiated radiation from the surface of the moving linear textile structure 7th scan, the axes of the sensors 11 of the radiated radiation versus the direction of the radiation source 3 emitted radiation are inclined.

Loud in the version shown 3 are on the back of the image sensor 1 a temperature sensor 4th and a heating element 6th attached, similar to the previous statements elsewhere in the socket 8th near the image sensor 1 can be attached. All components of the exemplary embodiment loudly 3 or at least some of them can be integrated into a semiconductor integrated circuit ASIC.

In all versions, the temperature sensors 4th or heating elements 6th directly on the semiconductor chip of the image sensor 1 can be integrated directly. The heating element 6th can thereby through a semiconductor structure of the chip 1 and that possibly parasitic structure are formed during the production of the semiconductor chip of the image sensor 1 originated.

The exemplary embodiments according to the invention are given to clearly explain the arrangement and the function; their purpose is not to limit the protection defined by the patent claims.

The stabilization of the temperature of the image sensors 1 tracking the quality of a moving linear textile material, especially a yarn, adds to the greater accuracy and repeatability of the measurement. The heating element 6th for heating the inner space of the socket 8th the device, possibly direct heating of the image sensors 1 , 11 speed up the bringing of the tracking means into working condition.

Claims (6)

Device for tracking the quality of a moving linear textile material, especially a yarn (7), which has a socket (8), inside of which at least one image sensor (1) is mounted, to which at least one radiation source (3) can be or is assigned , characterized in that the image sensor (1) is a line image sensor and in the inner space of the socket (8), in the vicinity of the image sensor (1), at least one heating element (6) is attached. Setup according to the Claim 1 , characterized in that at least one temperature sensor (4) is mounted in the inner space of the socket (8). Setup according to the Claim 1 or 2 , characterized in that the temperature sensor (4) and / or the heating element (6) are in contact with the image sensor (1). Setup according to one of the Claims 1 until 3 , characterized in that the temperature sensor (4) and / or the heating element (6) is integrated on a semiconductor chip of the image sensor (1). Setup according to the Claim 4 , characterized in that the heating element (6) is formed by a semiconductor structure of the chip of the image sensor (1). Setup according to the Claim 5 , characterized in that the heating element (6) is formed by a parasitic structure of the chip of the image sensor (1).

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